Category:Milling Machines: Difference between revisions
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[[Category:Tools]][[Category:Metal]] | [[Category:Tools]][[Category:Metal]] | ||
Link to: [[:Category:Machine Shop | Machine Shop main page.]] | |||
{{ToolBox | {{ToolBox | ||
|tool_title = Vertical Milling Machines | |tool_title = Vertical Milling Machines | ||
|tool_subtitle = Milling Machines | |tool_subtitle = Milling Machines | ||
|image = | |image = asylum_milling_machines.jpg | ||
|caption = | |caption = Milling machines in the Asylum Machine Shop | ||
|make = various | |make = various | ||
|model = | |model = | ||
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A 3-axis vertical milling machine has a variable-speed vertical spindle and a heavy table that translates underneath it. A metal workpiece is clamped to the table and a cutting tool is held in the spindle. Cutting is done by moving the workpiece against the spinning tool, or by lowering the spinning tool into the workpiece. | A 3-axis vertical milling machine has a variable-speed vertical spindle and a heavy table that translates underneath it. A metal workpiece is clamped to the table and a cutting tool is held in the spindle. Cutting is done by moving the workpiece against the spinning tool, or by lowering the spinning tool into the workpiece. | ||
A CNC milling machine operates by computer control. Motors are attached to the movement mechanics allowing the computer to make precision-machined parts automatically. | A CNC milling machine operates by computer control. Motors are attached to the movement mechanics allowing the computer to make precision-machined parts automatically. The machine motion is encoded in a program, generally as '''G-code''' which is most usually created by a '''CAD/CAM''' system on a computer. | ||
{| class="infobox" cellspacing="0" style="width: 2em; text-align: left; font-size: 125%; line-height: 1.5em;" | |||
! colspan="2" class="infobox-image" | [[File:headphones_goggles.png|60px| ]] | |||
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{| class="wikitable" | {| class="wikitable" | ||
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=Safety Notes= | =Safety Notes= | ||
{{EyeWarning}} | |||
==Personal== | ==Personal== | ||
* '''Wear safety goggles.''' Eyeglasses are NOT safety goggles. | * '''Wear safety goggles.''' Eyeglasses are NOT safety goggles. | ||
{| class="infobox" cellspacing="0" style="width: 2em; text-align: left; font-size: 125%; line-height: 1.5em;" | {| class="infobox" cellspacing="0" style="width: 2em; text-align: left; font-size: 125%; line-height: 1.5em;" | ||
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* | * Beware of flying or falling chips. They are '''HOT''' and '''SHARP.''' | ||
* Wear '''closed-toe shoes.''' | |||
* '''Do not wear loose clothing''' or jewelry when operating the machine. Long hair must be tied back or covered. | * '''Do not wear loose clothing''' or jewelry when operating the machine. Long hair must be tied back or covered. | ||
* Do not wear gloves. Gloves can be drawn into a cut by the spinning tool. | * Do not wear gloves. Gloves can be drawn into a cut by the spinning tool. | ||
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* Do not operate the machine if any unusual or excessive heat, noise, smoke, or vibration occurs. | * Do not operate the machine if any unusual or excessive heat, noise, smoke, or vibration occurs. | ||
* '''Make sure the spindle has come to a complete stop''' before changing tools or unloading the workpiece. Keep hands clear of the spindle start switch when changing tools. | * '''Make sure the spindle has come to a complete stop''' before changing tools or unloading the workpiece. Keep hands clear of the spindle start switch when changing tools. | ||
* | * Do not allow piles of chips to accumulate on the machine. | ||
* Remove all wrenches, chuck keys, and loose parts before turning on the machine. | * Remove all wrenches, chuck keys, and loose parts before turning on the machine. | ||
* Before running machine the spindle should be rotated by hand to make sure it is clear for cutting. | * Before running machine the spindle should be rotated by hand to make sure it is clear for cutting. | ||
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* Always use sharp cutters that are in good condition. | * Always use sharp cutters that are in good condition. | ||
=Machine | {| class="wikitable" | ||
|+ Vertical 3-Axis Milling Machines at Artisans Asylum | |||
|- | |||
! [[M3X CNC Milling Machine]] !! [[:Bridgeport Series 1 Standard Knee Mill |Bridgeport Mill]] !! [[:Sharp Manual Milling Machine |Sharp Mill "Click"]] !! [[:Sharp Manual Milling Machine |Sharp Mill "Clack"]] | |||
|- | |||
! CNC !! Manual !! Manual !! Manual | |||
|- | |||
| [[File:Mill_Accu_II.png|200px]] || [[File:Mill_Bridgeport_new.png|150px]] || [[File:Mill_Sharp_Click.png|150px]] || [[File:Mill_Sharp_Clack.png|150px]] | |||
|} | |||
=Cleaning the Machine= | |||
==During cutting, metal chips accumulate== | |||
* If metal chips obstruct the tool, e.g. while milling of a pocket, it may be necessary to pause the cut in order to clear the chips out. | |||
* Lightweight chip brushes can clear them form points close to the cutting tool. | |||
* If compressed air must be used, use with caution. '''Wear eye protection''' | |||
{| class=" | ==After finishing, clean up the machine== | ||
| | |||
* Remove all tooling from the spindle, clean and put away. | |||
* Wipe off all parallels and fixturing and return to their storage caddies. | |||
* Starting from the highest dirty point on the machine, brush off metal chips or vacuum with a shop-vac. | |||
* Use a brush or metal T-slot cleaner to remove chips from the slots in the table. | |||
* Remove metal chips from the interior of the vise and the back surfaces of the ways. | |||
* Clean the chips off the mill base and mop up spilled cutting oil. | |||
* Sweep the floor around the machine. | |||
'''This is a hipster maker space.''' Imagine that late at night there may be be naked people running around for a performance event. | |||
=Parts of a Milling Machine= | |||
{| class="infobox" cellspacing="5" style="width: 22em; text-align: left; font-size: 100%; line-height: 1.5em;" | |||
! colspan="2" class="infobox-image" | [[File:milling_machine_labeled.png|400px|setup guide sketch ]] | |||
|- | |||
| colspan="2" | Parts of a Milling Machine | |||
|- | |||
|} | |||
'''Headstock:''' | |||
The spindle is driven by the motor at the top. Frequently there is a crank-operated speed control located on the front. | |||
An emergency stop (E-STOP) button is always located next the the motor power switch. | |||
The spindle is raised and lowered through the Quill, actuated by a handle on the side of the headstock. | |||
Tools are held in place with a drawbar that extends through the center of the spindle. The draw-bar can be tightened manually or with a pneumatic motor. | |||
'''Table:''' | |||
The moving table is carried on the machine's saddle. | |||
Side-to-side (Longitudinal) motion of the table is controlled by ball crank handles on either end of the table. The scales are incremented by 0.001 inches. | |||
'''Knee:''' | |||
In-and-out (Cross) motion of the table is controlled by a crank on the front of the knee, also incremented by 0.001 inches. | |||
The table is raised and lowered vertically by a crank on the side of the knee. | |||
'''Base and Turret''' | |||
These provide stability and allow some adjustment of the headstock. | |||
=Machine Motion= | |||
The X-Y motion of the table and the vertical motions of the knee and the spindle are all actuated by gears and screws, which turn rotary motion into linear motion. Different machines have different means for effecting this motion. | |||
==Manual Actuation== | |||
{| class="infobox" cellspacing="5" style="width: 12em; text-align: left; font-size: 100%; line-height: 1.5em;" | |||
! colspan="2" class="infobox-image" | [[File:hand_crank_scale_.png|250px|hand crank scale ]] | |||
|- | |||
| colspan="2" | The scale is graduated in 1/1000ths of an inch. | |||
|- | |||
|} | |||
{| class="infobox" cellspacing="5" style="width: 22em; text-align: left; font-size: 100%; line-height: 1.5em;" | |||
! colspan="2" class="infobox-image" | [[File:mill_hand_crank.jpg|330px|hand crank ]] | |||
|- | |||
| colspan="2" | Hand-cranking the cross-feed on the Enco mill. | |||
|- | |||
|} | |||
On a manual machine, the motion is created by turning the mechanical input with a crank or a handle. On the table cranks, an "ACME" screw creates a movement of 0.2 inches per rotation. | |||
With this motion, the user must account for the '''backlash''' of the screw and the nut riding on it. On a typical mill, this backlash can be approximately 1/20 rotation, or about 0.01 inches in distance. | |||
==Mechanization== | |||
{| class="infobox" cellspacing="5" style="width: 22em; text-align: left; font-size: 100%; line-height: 1.5em;" | |||
! colspan="2" class="infobox-image" | [[File:mill_motor_drive.png|200px|mill motor drive ]] | |||
|- | |||
| colspan="2" | An add-on motor drive on the Enco mill. | |||
|- | |- | ||
! | |} | ||
On some machines, an electric motor is attached to one or more axes of motion. This permits the user to set a uniform speed for milling off a flat surface with an even linear movement. | |||
A clutch handle engages the motor to the hand-crank for motion in either direction. A variable speed control adjusts the rate of motion. | |||
On many machines, the spindle on the headstock has a mechanized vertical movement geared into the spindle rotation, for drilling holes | |||
==Computer Numerical Control== | |||
{| class="infobox" cellspacing="5" style="width: 22em; text-align: left; font-size: 100%; line-height: 1.5em;" | |||
! colspan="2" class="infobox-image" | [[File:mill_accupath_servo.jpg|200px|mill servo drive ]] | |||
|- | |- | ||
| CNC | | colspan="2" | A servo motor on the Accupath CNC mill. | ||
|- | |- | ||
|} | |} | ||
On a CNC mill, there is a similar motor drive, but the motor is a DC servo motor that operates under computer control. | |||
A servo motor consists of a DC motor and an encoder, which provides feedback to the computer as to the motor's position. | |||
The optional hand-crank is rarely used, and can only be handled when the servo motor is off. |
Latest revision as of 10:04, 27 March 2024
Link to: Machine Shop main page.
Vertical Milling Machines | |
---|---|
General Info | |
Make | various |
Model | |
Serial | |
Specs | |
Manual | |
Asylum Info | |
Location | Machine Shop |
Rubric | |
Training | |
Testing | |
Restrictions | red |
Description
On a milling machine, parts are created by removing material from a solid block (or workpiece) using a variety of spinning cutting tools.
A 3-axis vertical milling machine has a variable-speed vertical spindle and a heavy table that translates underneath it. A metal workpiece is clamped to the table and a cutting tool is held in the spindle. Cutting is done by moving the workpiece against the spinning tool, or by lowering the spinning tool into the workpiece.
A CNC milling machine operates by computer control. Motors are attached to the movement mechanics allowing the computer to make precision-machined parts automatically. The machine motion is encoded in a program, generally as G-code which is most usually created by a CAD/CAM system on a computer.
Use For | Do Not Use For |
---|---|
|
|
Safety Notes
Eye protection required! | ||
---|---|---|
Personal
- Wear safety goggles. Eyeglasses are NOT safety goggles.
- Beware of flying or falling chips. They are HOT and SHARP.
- Wear closed-toe shoes.
- Do not wear loose clothing or jewelry when operating the machine. Long hair must be tied back or covered.
- Do not wear gloves. Gloves can be drawn into a cut by the spinning tool.
- Do not remove chips from the cutting area with bare hands. Use a chip brush or a shop-vac.
- Always keep a secure, stable stance. Avoid over-reaching. Clean up oil spills immediately and avoid slipping. Keep the work area clear of trip hazards.
Machine
- Work must be clamped securely in a vise and the vise clamped tightly to the table, or, work must be clamped securely to the table.
- Always stay at the machine while it is running.
- Do not operate the machine if any unusual or excessive heat, noise, smoke, or vibration occurs.
- Make sure the spindle has come to a complete stop before changing tools or unloading the workpiece. Keep hands clear of the spindle start switch when changing tools.
- Do not allow piles of chips to accumulate on the machine.
- Remove all wrenches, chuck keys, and loose parts before turning on the machine.
- Before running machine the spindle should be rotated by hand to make sure it is clear for cutting.
- Make sure the cutter is rotating in the proper direction before cutting material.
- Always use sharp cutters that are in good condition.
M3X CNC Milling Machine | Bridgeport Mill | Sharp Mill "Click" | Sharp Mill "Clack" |
---|---|---|---|
CNC | Manual | Manual | Manual |
Cleaning the Machine
During cutting, metal chips accumulate
- If metal chips obstruct the tool, e.g. while milling of a pocket, it may be necessary to pause the cut in order to clear the chips out.
- Lightweight chip brushes can clear them form points close to the cutting tool.
- If compressed air must be used, use with caution. Wear eye protection
After finishing, clean up the machine
- Remove all tooling from the spindle, clean and put away.
- Wipe off all parallels and fixturing and return to their storage caddies.
- Starting from the highest dirty point on the machine, brush off metal chips or vacuum with a shop-vac.
- Use a brush or metal T-slot cleaner to remove chips from the slots in the table.
- Remove metal chips from the interior of the vise and the back surfaces of the ways.
- Clean the chips off the mill base and mop up spilled cutting oil.
- Sweep the floor around the machine.
This is a hipster maker space. Imagine that late at night there may be be naked people running around for a performance event.
Parts of a Milling Machine
Parts of a Milling Machine |
Headstock:
The spindle is driven by the motor at the top. Frequently there is a crank-operated speed control located on the front.
An emergency stop (E-STOP) button is always located next the the motor power switch.
The spindle is raised and lowered through the Quill, actuated by a handle on the side of the headstock.
Tools are held in place with a drawbar that extends through the center of the spindle. The draw-bar can be tightened manually or with a pneumatic motor.
Table:
The moving table is carried on the machine's saddle.
Side-to-side (Longitudinal) motion of the table is controlled by ball crank handles on either end of the table. The scales are incremented by 0.001 inches.
Knee:
In-and-out (Cross) motion of the table is controlled by a crank on the front of the knee, also incremented by 0.001 inches.
The table is raised and lowered vertically by a crank on the side of the knee.
Base and Turret
These provide stability and allow some adjustment of the headstock.
Machine Motion
The X-Y motion of the table and the vertical motions of the knee and the spindle are all actuated by gears and screws, which turn rotary motion into linear motion. Different machines have different means for effecting this motion.
Manual Actuation
The scale is graduated in 1/1000ths of an inch. |
Hand-cranking the cross-feed on the Enco mill. |
On a manual machine, the motion is created by turning the mechanical input with a crank or a handle. On the table cranks, an "ACME" screw creates a movement of 0.2 inches per rotation.
With this motion, the user must account for the backlash of the screw and the nut riding on it. On a typical mill, this backlash can be approximately 1/20 rotation, or about 0.01 inches in distance.
Mechanization
An add-on motor drive on the Enco mill. |
On some machines, an electric motor is attached to one or more axes of motion. This permits the user to set a uniform speed for milling off a flat surface with an even linear movement.
A clutch handle engages the motor to the hand-crank for motion in either direction. A variable speed control adjusts the rate of motion.
On many machines, the spindle on the headstock has a mechanized vertical movement geared into the spindle rotation, for drilling holes
Computer Numerical Control
A servo motor on the Accupath CNC mill. |
On a CNC mill, there is a similar motor drive, but the motor is a DC servo motor that operates under computer control.
A servo motor consists of a DC motor and an encoder, which provides feedback to the computer as to the motor's position.
The optional hand-crank is rarely used, and can only be handled when the servo motor is off.
Pages in category "Milling Machines"
The following 6 pages are in this category, out of 6 total.